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| Death/Life – Nature – Information |

Death & Life

Explanation of death & life based on Information theory.

Biological Description of Death & Life;
||It is estimated The Earth was formed four billion years ago by Lava, so at the first life was Impossible. Gradually Earth was cooled & the rock layers were formed. Clouds were formed by the Condensing of water vapor in the atmosphere. For another two thousand years it rained slowly which caused the appearance of the oceans.
Some theorists suggest that the atmosphere of the early Earth may have been chemically reducing in nature, composed primarily of methane (CH4), ammonia (NH3), water (H2O), hydrogen sulfide (H2S), carbon dioxide (CO2) or carbon monoxide (CO), and phosphate (PO43-), with molecular oxygen (O2) and ozone (O3) either rare or absent. In such a reducing atmosphere, electrical activity can catalyze the creation of certain basic small molecules (monomers) of life, such as amino acids (monomers of proteins) & carbohydrates.
After many years mixture of amino acids formed small spherical shells about 2 μm in diameter, called Microspheres.  Some refer to microspheres or protein protocells as small spherical units postulated by some scientists as a key stage in the origin of life. Microspheres, like cells, can grow and contain a double membrane which undergoes diffusion of materials and osmosis. Although they do reproduce asexually by budding, they do not pass on any type of genetic material; so they are not alive!
These microspheres became more complex, they would carry on more lifelike functions. Gradually they could make Short strands of RNA by Nucleic acid. The RNA was capable of self- replication & during the budding, passed to the next generation. RNA molecules could manage synthesis of special enzymes and proteins, determined their microspheres Feature. When we know a cell is alive that it grows, does metabolism & does reproduce to transfer the genetic information to the next generation.
The cell is the basic structural and functional unit of all known living organisms. It is the smallest unit of life that is classified as a living thing.
There are two types of cells; eukaryotic and prokaryotic. Prokaryotic cells are usually independent, while eukaryotic cells are often found in multicellular organisms.
The prokaryotic cells are simpler, without some specific Organelles such as Mitochondria & Chloroplasts.  The prokaryotes are Primary cells that are origin of Eukaryotic cells. The genetic material of a prokaryotic cell consists of a single chromosome that is in direct contact with the cytoplasm. Here, the undefined nuclear region in the cytoplasm is called the nucleoid.  Bacteria and cyan bacteria are prokaryote. All of the prokaryotes are unicellular.

Some parts of prokaryotic cells:
-                      Cytoplasmic region that contains the cell genome (DNA) and ribosomes and various sorts of inclusions.
-                      The Cell membrane or plasma membrane surroundes cytoplasm.
-                      The Cell wall acts to protect the cell mechanically and chemically from its environment, and is an additional layer of protection to the cell membrane.
-                      A gelatinous capsule is present in some bacteria outside the cell membrane and cell wall.
-                      Flagella for cellular mobility, is long & thick, made of protein. The bacterial flagellum stretches from cytoplasm through the cell membrane and extrudes through the cell wall.
-                      Fimbriae (pili) made of proteins that are short & thick, responsible for attachment of bacteria to specific receptors of human cells or Sticking to various surfaces.
The eukaryotic cell seems to have evolved from a symbiotic community of prokaryotic cells; because:
-                      Both use RNA and DNA which are the genetic material
-                      Both use the same 20 amino acids
-                      Both have ribosomes and DNA and RNA
-                      Both have a lipid layer cell membrane.
   Plants, animals, fungi & algae are all eukaryotic. The major difference between prokaryotes and eukaryotes is that eukaryotic cells contain membrane-bound compartments in which specific metabolic activities take place. Eukaryotes like prokaryotes have Cytoplasmic, Cell membrane and some of them like plant Cells have Cell wall.  Different types of cells have cell walls made up of different materials; plant cell walls are primarily made up of pectin, fungi cell walls are made up of chitin and bacteria cell walls are made up of peptidoglycan. The eukaryotic DNA is organized in one or more linear molecules, called chromosomes, which are associated with histone proteins. All chromosomal DNA is stored in the cell nucleus, separated from the cytoplasm by a membrane. Some eukaryotic organelles such as mitochondria also contain some DNA.

Some specific Organelles in the Eukaryotic cells:
Ribosome is a large complex of RNA and protein molecules. They each consist of two subunits, and act as an assembly line where RNA from the nucleus is used to synthesise proteins from amino acids. Ribosomes can be found either floating freely or bound to a membrane or on the rough endoplasmatic.
Lysosomes are to serve as digestion compartments for cellular materials that have exceeded their lifetime or are otherwise no longer useful. They are manufactured by the Golgi apparatus. They digest excess or worn-out organelles, food particles or bacteria with breaking down cellular waste products, fats, carbohydrates, proteins, and other macromolecules into simple compounds, which are then transferred back into the cytoplasm as new cell-building materials.
Peroxisomes are involved in the catabolism of very long chain fatty acids, branched chain fatty acids, polyamines, and biosynthesis of plasmalogens. One of the important functions is to Breakdown the hydrogen peroxide (H2O2), a potentially dangerous product of fatty-acid oxidation. It is catalyzed by the enzyme catalase.
Lysosomes & Peroxisomes do their tasks by helping Enzymes. Enzymes are catalysts and responsible for the thousands of chemical reactions taking place. Most are proteins, so Ribosomes make them with amino acids.
Golgi apparatus processes and packages the macromolecules such as proteins and lipids that are synthesized by the cell.
Mitochondria provide the energy a cell needs to move, divide, produce secretory products, contract - in short; they are the power centers of the cell. The Origin of Mitochondria was an aerobic prokaryote.
The endoplasmic reticulum (ER) is a system of membrane-enclosed sacs and tubules in the cell.  ER is a site that manufactures most of the membranes of the cell, lipids, transmembrane proteins and secreted proteins. The ER has two forms: the rough ER, which has ribosomes on its surface and secretes proteins into the cytoplasm, and the smooth ER, which lacks them. Smooth ER plays a role in calcium sequestration and release; also does detoxification.
All of these Organelles are common in the eukaryotic cells. But there are some organelles that only can be found in some specific cells. For example Centrosome can only be found in animals cells (acts as the main microtubule-nucleating organelle in animal cells and plays a critical role in mitotic spindle orientation and in genome stability.) Or vacuoles that store extra water, waste & food, can be found in plant cells and some fungis.
The purpose of these organelles & their mechanisms is life. Prokaryotic-eukaryotic or Unicellular-multicellular try to survive and live more. Also for this purpose do reproduction. But each living organism - unicellular or multicellular - has a limited lifetime.  For example Red blood cells can be alive max. 120 days.

What happens after a cell dies?
Death is a part of life.
At the cellular level, it's essential for life. There are two types of eukaryotic cell death: necrosis and apoptosis. Apoptosis or programmed cell death is like a cell committing suicide! When a cell is compelled to commit suicide proteins called caspases go into action. Some cellular components which are necessary for survival are broke down by caspases. The DNA in the nucleus condenses and breaks into regular-sized fragments by DNases. The cell shrinks and sends out distress signals, which are answered by vacuum cleaners known as macrophages. After that, it breaks into several smaller pieces containing the cell components and destroyed nucleus.

Necrotic means the cell dies due to some sort of outside stimulus; Mechanical stress, lack of oxygen & etc.
Macrophages play an important role in both types of cell death. They remove remaining cell components & break down them with their enzymes. Obtained materials come back to a new cell cycle.
In the nature when an animal, a human or a type of plant dies, all parts of their body is disintegrated by Bacteria, some fungis & Protista to monomers like amino acid, nucleotide acid & Lipid. These monomers can make a new system that is alive or affects on living organisms, like viruses.
||



Technical Description of Death & Life;
|| How to destroy or kill information:
There are some ways to kill or destroy our data in formal ways, for example if you have some special data on your HDD and want to fordo all of that, what should you do?
1) Shift + Delete
2) Format your HDD
3) Format your HDD and install another OS
But does Microsoft or Google or some other companies like them kill their important information of database by these regular ways?
Of course not! For example Microsoft kills its information by some ways that are not logical at the first in people mind.
Microsoft has some powerful programs to encrypt data like Bitlocker & etc.
But when a HDD in Microsoft company has serious problem Microsoft reformat it, if the problem solved  HDD comes back to the normal working but if the problem didn`t solve Microsoft will not use  bitlocker and take HDD away because it afraid of losing its important data. The Microsoft`s engineers rendered some solution to safe data. One of these powerful ways is this: The Microsoft`s engineers write some program with special algorithm that format one HDD and change the HDD table and write spurious data on HDD and repeat these actions up to 1,000,000  times, by this you can safe your data up to ~90%  but you can recovery your data yet. So Microsoft, Google, Intel and giant companies don`t want to risk so they use another ways to kill their important information; destroy HDDs one by one.
Maybe it s not good for Microsoft, Google, Apple & etc to use this way to keep their data secure! But really they cannot do anything else...
Cause Information is Physical.
||



Information can be stored on/in everything;
Mechanical waves, EM waves, cellules, Hyper Molecule like DNA & RNA, Atomes, LED board in a city, alphabets, eyes & ears (How you see and hear), Quantum fluctuation, Elementary Particles and etc.
You can store 1MB on a big page and 1TB on few amounts of molecules (1gram DNA; 700TB).
Human’s complex body is because of more information. Each new movement means new structure.
From simple Algae to Human body, from simple atoms to complex system of life. It is Entropy, it s increasing the information. One bit to 700TBytes. All these are because of chaotic universe; Dynamic System.
Several years ago human needed large volume to store just one word (few amounts of bits). For example 500KB in a room (3*4*3m)! but you have now 1TeraBytes in your packet as external HDD.
Suppose 1m for 1MB (50 yrs ago) and 1nm for 1MB now.
We know just bit as unit of information but we cannot explain it by place/space/time, (x,y,z,t). But Bit is physical parameter cause we can measure it.
If you have storage device with good (acceptable) quality, it s not important for your data How long and How many years they are in that device. For example after 50 yrs, you can play music that stored on a device by your father or grandpa. Maybe quality of music reduce but that s because of materials of device. The Information exists but you cannot read, however you can recover & repair them like photos and videos.
So there is no scale for information. (x,y,z,t) is surface of structures coordinates. But actually there s no dependency for info on structures. Even you can recover info after destroy almost of surface. (As we talk before.)
To Be or Not To Be of surface is not important for Nature of Information.
Your info will remain at least at the surface of NATURE. However information is Free in time & space/place.
So after Death, Information will be alive.

Read more;
We are Quantum Computer.
Robotic DNA



| Elementary Particle – Light - Information |

How to measure by ElementaryParticle?

Description of ElementaryParticle/Light;
||The laws of physics describe light and matter, and the quantum revolution rewrote both descriptions. Radioactivity was good example of matter's behaving in a way that was inconsistent with classical physics, but if we want to get under the hood and understand how non-classical things happen it will be easier to focus on light rather than matter. A radioactive atom such as uranium 235 is after all an extremely complex system, consisting of 92 protons, 143 neutrons, and 92 electrons. Light, however, can be a simple sine wave.
However successful the classical wave theory of light had been allowing the creation of radio and radar, for example, it still failed to describe many important phenomena. An example that is currently of great interest is the way the ozone layer protects us from the dangerous short-wavelength ultraviolet part of the sun's spectrum. In the classical description, light is a wave. When a wave passes into and back out of a medium, its frequency is unchanged, and although its wavelength is altered while it is in the medium, it returns to its original value when the wave reemerges.
For a long time, physicists tried to explain away the problems with the classical theory of light as arising from an imperfect understanding of atoms and the interaction of light with individual atoms and molecules. The ozone paradox, for example, could have been attributed to the incorrect assumption that the ozone layer was a smooth, continuous substance, when in reality it was made of individual ozone molecules. It wasn't until 1905 that Albert Einstein threw down the gauntlet, proposing that the problem had nothing to do with the details of light's interaction with atoms and everything to do with the fundamental nature of light itself.
In those days the data were sketchy, the ideas vague, and the experiments difficult to interpret; it took a genius like Einstein to cut through the thicket of confusion and find a simple solution.  Although Einstein was interpreting different observations, this is the conclusion he reached in his 1905 paper: that the pure wave theory of light is an oversimplification, and that the energy of a beam of light comes in finite chunks rather than being spread smoothly throughout a region of space.
We now think of these chunks as particles of light, and call them photons, although Einstein avoided the word particle, and the word photon was invented later. Regardless of words, the trouble was that waves and particles seemed like inconsistent categories. The reaction to Einstein's paper could be kindly described as vigorously skeptical. Even twenty years later, Einstein wrote, there are therefore now two theories of light, both indispensable, and as one must admit today despite twenty years of tremendous effort on the part of theoretical physicists without any logical connection.
We have seen evidence that light energy comes in little chunks, so the next question to be asked is naturally how much energy is in one chunk. The most straightforward experimental avenue for addressing this question is a phenomenon known as the photoelectric effect. The photoelectric effect occurs when a photon strikes the surface of a solid object and knocks out an electron. It occurs continually all around you. It is happening right now at the surface of your skin and on the paper or computer screen from which you are reading these words.
The photoelectric effect was discovered serendipitously by Heinrich Hertz in 1887, as he was experimenting with radio waves. He was not particularly interested in the phenomenon, but he did notice that the effect was produced strongly by ultraviolet light and more weakly by lower frequencies. Light whose frequency was lower than a certain critical value did not eject any electrons at all. This dependence on frequency didn't make any sense in terms of the classical wave theory of light. A light wave consists of electric and magnetic fields. The stronger the fields, i.e., the greater the wave's amplitude, the greater the forces that would be exerted on electrons that found themselves bathed in the light. It should have been amplitude (brightness) that was relevant, not frequency. The dependence on frequency not only proves that the wave model of light needs modifying, but with the proper interpretation it allows us to determine how much energy is in one photon, and it also leads to a connection between the wave and particle models that we need in order to reconcile them, therefore, light must be both a particle and a wave. It is a wave because it exhibits interference effects. At the same time, the fact that the photographs contain discrete dots is a direct demonstration that light refuses to be split into units of less than a single photon.
One possible interpretation of wave-particle duality that occurred to physicists early in the game was that perhaps the interference effects came from photons interacting with each other. By analogy, a water wave consists of moving water molecules and interference of water wave results ultimately from all the mutual pushes and pulls of the molecules, if interference effects came from photons interacting with each other, a bare minimum of two photons would have to be present at the same time to produce interference. By making the light source extremely dim, we can be virtually certain that there are never two photons in the box at the same time.
If a single photon can demonstrate double-slit interference, then which slit did it pass through? The unavoidable answer must be that it passes through both! This might not seem so strange if we think of the photon as a wave, but it is highly counterintuitive if we try to visualize it as a particle.
If a photon had a well defined path, then it would not demonstrate wave superposition and interference effects, contradicting its wave nature.
A second possible explanation of wave-particle duality was taken seriously in the early history of quantum mechanics. What if the photon particle is like a surfer riding on top of its accompanying wave? As the wave travels along, the particle is pushed, or piloted by it. Imagining the particle and the wave as two separate entities allows us to avoid the seemingly paradoxical idea that a photon is both at once. The wave happily does its wave tricks, like superposition and interference, and the particle acts like a respectable particle, resolutely refusing to be in two different places at once. If the wave, for instance, undergoes destructive interference, becoming nearly zero in a particular region of space, then the particle simply is not guided into that region.
Around the turn of the twentieth century, experiments began to show problems with the classical wave theory of light. In any experiment sensitive enough to detect very small amounts of light energy it becomes clear that light energy cannot be divided into chunks smaller than a certain amount. Measurements involving the photoelectric effect demonstrate that this smallest unit of light energy equals hf, where f is the frequency of the light and h is a number known as Planck's constant. We say that light energy is quantized in units of hf, and we interpret this quantization as evidence that light has particle properties as well as wave properties.
The only method of reconciling the wave and particle natures of light that has stood the test of experiment is the probability interpretation: the probability that the particle is at a given location is proportional to the square of the amplitude of the wave at that location.
One important consequence of wave-particle duality is that we must abandon the concept of the path the particle takes through space. To hold on to this concept, we would have to contradict the well established wave nature of light, since a wave can spread out in every direction simultaneously.
To conclude it, during 2012 many physicists were hoping that photons particles of light  could help us to piece together the nature of the mysterious stuff thought to make up 85 per cent of the universe's matter.
Some theories had hinted that heavy photons, hypothetical versions of the more familiar mass-less particles, might be dark matter. According to that idea, the heavy photon would have a small amount of mass and might carry an unknown fundamental force that allows it to interact only with ordinary photons effectively hiding it from the visible world.
When most particles with mass get too near to a black hole, they fall in, never to be seen again. Photons with no mass can skirt past danger if they are on the right trajectory. But a photon with a very tiny in between mass can enter into an orbit of the spinning black hole and steal some of its angular momentum. If conditions are right, this process can continue until orbiting particles slow the hole down so much that it stops spinning.
Some scientist have calculated how long photons of given masses would take to sap a black hole's spin. Then they examined data on the ages and rotation speeds of eight super-massive black holes.
||

(QED; QuantumElectroDynamics: Angle of Incidence is not equal to angle of reflection.)
One of the best devices to download information is eye that sometimes cannot work correctly because holographic structure of our brain, but for weak mind without enough concentration. Weak mind cannot process information fast & correct.
Anyway eyes are not just measuring device. We can measure by touching or hearing & etc directly but still we have another tools to measure; Measuring by others. Like measuring attributes & properties of black-holes, dark-matters and dark energy by effects of them on others so it is indirect measuring. We can use it to measure elementary particles specifications like spin so we can use Quantum Effects to measure something we cannot directly get information about it. Like Quantum Tunneling to measure what happen inside Black-Holes. That because if we send Entangled Bits to Black-Holes we can observe effect of them on Entangled Bits in our labs so we decode the behavior and analysis to understand what happened for those entangled Bits inside black-holes; how their spin change and how fast it happened & etc. And it s exactly the mechanism of nature is measuring.

See also;

-To be Continue…





| Modern Life - Future Technology - Computer/Human |

Future of Humanity


Description of Modern Life;
||Technology is very big part of modern life. Many people see technology as a force that has escaped from human control. Others feel that technology has improved the quality of life. Do you think that the contribution technology has made to modern life has been positive or negative? 
We all think that technology is getting better everywhere. But the truth is most of the advanced things has been hidden in their production policy. In the world trade we can point out that very clearly. These problems are started from every necessary need. It begins from the consumable items to modern computerized system. Consumable goods are usually excluded from warranty policies, as it is considered that covering them would excessively increase the cost of the premium. So we most getting problem with this because of global competition has caused manufacturers to raise the bar for products performance and productivity. Many have realized the importance of proper maintenance when it comes to maximizing product effectiveness. Far fewer have recognized the potential impact of wear parts and consumables on overall production. With current technology, consumable parts can play a critical role in the overall success of a machine investment. Similar to the way inexpensive cartridges can eliminate the benefits of a high-performance printers, low quality consumables can result in subpar machine.
 The photocopier industry is one key industry that can help to maintain the planet as we know it and help to reduce the impact we have on our environment. Many of the photocopier manufacturers are putting into place processes that will reduce CO2 output by recycling toner bottles and looking to integrate as many bio-materials into their products as possible as the following study shows cheaper photocopiers are increasing the recycling energy and it will lead the poor environment policy.
Recycling is all about reusing wasted material and if we don't recycle then the waste material ends up in land-fill.
According to the BBC, the UK disposes of more waste into land-fill than any other EU country. Traditional plastics tend have been estimated to take more than a thousand years to degrade according to the Times online.
With these statistics in MIND, the responsibility to dispose of waste in an environmentally friendly way should be on every company’s agenda. Considering the majority of photocopiers, network printers and toner bottles are made from some sort of plastic. Recycling is the only feasible way to dispose of your toner bottle or old photocopier while traditional plastics are still in use. According to the lack products quality, consumers need to buy that more and more. It is indirectly increases their expenses and effects our environment policy. When we like to have the inexpensive and easy way for recycling all our consumables, Definitely it will effect of our environment policy and indirectly .as you know the office fax machine, laser printer or photocopier finally dies or gets replaced you may be wondering what to do with it. It’s not commonly known but the incorrect disposal of office printers & copiers is extremely hazardous to the environment as these machines contain materials that can pollute the earth. That is why some specialized companies guarantee that “NO LANDFILLS” will be used with our “recycle the right way” company policy. When it comes to the disposal of laser printers, fax machines, photocopiers and all desktop printers is the right choice.
Those authorized business provides the environmentally safe service of fax machine disposal and the disposal of all office printers. Then we can achieve the maximum environmental benefit for the disposal of obsolete office printing and copying equipment.

They dismantle faxes (facsimile machines), office printers (laser printer, office jet printer, inkjet printer, etc) and Copiers (photocopiers, Ricoh, Kyocera, Utax, NRG, Samsung, Rex Rotary, Intimus, HP, Cannon, Xerox) into their composite materials so these materials can be recycled and placed back into the manufacturing process as feedstock. The generations of feedstock through their processes help to preserve our natural resources that are usually used for manufacturing. According to this statement we can understand that the technology been hidden there because of our hesitation. Whatever the technology is there which is created few years before. It never comes to the market. Because it may effects the production cost of manufacturer. They might think that the new arrivals hold their stock which is selling by them presently. Also the demand of the people needs to be cheap and best. They are getting it but not everything. In the smart phones we can understand that better than anything. Because their software designed by few months before. But it will not come to the world market soon. It will come with small dimension & icon changes. But they never reveal their full updated device. It will come with their next version of smart phones only. Therefore whatever we are using as our present technology. It is revealed few years before only. So welcoming our technology to gives us everything at right time and using by our present generation not by our grand children’s. We wish them to have a very useful and innovative technology ever.
||





Description of Future Technology by Mostafa Hussain;
||If we want to speak about technology we should first speak about companies that release new tech in all over the world because technology is the making, modification, usage, and knowledge of tools, machines, techniques, crafts, systems, methods of organization, in order to solve a problem, improve a preexisting solution to a problem, achieve a goal or perform a specific function. It can also refer to the collection of such tools, machinery, modifications, arrangements and procedures .so this definition of technology made us that everything that you can use and is accessibility is tech.
But nowadays unfortunately we see that companies whom have heavy responsibility to publish the technology and new resolution of problems in humans life have quarrel together .and this quarrel has stupid reasons .for example Apple thinks that any company don’t have right to build tablets because it was the first company that made Ipad and has complained about Samsung that Samsung`s designer designed Galaxy SII like one of its products. Because of these stupid reasons our companies spend their time and energy in court of justice instead of tech laboratory .so this is clear that Iphone5 is the same as Iphone4.
Our companies can solve these quarrels by some protocols and laws like open source and these are not against the copyright. These companies must raise their capacity and think about new tech instead of earning money.
The advantage and benefit of open source is that technology will be complete with high speed and companies can observe new product and after that release new tech .now we can use at least the product of 2017 in 2012 because companies think only about money ,we can see it Sony company .Sony and Ericsson dissented on early 2012 but Sony release its new product by Sony Ericsson brand yet .this is just story that we could find but if you compare current knowledge  and current tech you can understand that tech is really lagging.
But now we want to speak about some technology that can be accessible in the future:
Processing data is expensive action, nowadays we have to spend our money to buy CPUs for our PCs, Laptops, & etc. So companies want to create processing units and sell these technology to public and people can buy the power of processing that required, this is clear that we aren`t far from this and we can see it in few years later. (This is something like cutting DVD-ROMs and HDD from laptops because you can get your data from powerful database called Internet.)
In fact future technology will mix Humans with Machines.

Because of magical ability of human`s brain that no one can know it correctly and completely cause we are quantum computers, Engineers want to deposit processing of new computers to human`s brain. Because brain is flexible so can get new responsibility. By this you can connect to internet and download your necessary data by thinking about this action.
But as you know information in our brain is transferring by ions. And this means your speed for transferring of information and processing information is lower than processing with electrons. In fact this is the logical result of information that we have, as I said we are quantum computer, perhaps we will see high speed of processing with ion.
By this technology you can write and read and understand Chinese language but you are not from china, you see a line that wrote with Chinese language so your eyes sent information to your brain, because your brain can`t analysis these data so sent that packet to your new part of brain that connect you to an online dictionary and finally you can analysis Chinese line, these are compute in very short time because info transfer by ion and electron.
By this tech you can compute math very quickly, for example if I ask you 9*9=? You can answer very fast because you answered this question by using some ability of your brain like cache (in a computer CPU has some space to saving some information that is very necessary called ROM) and perhaps your brain use something like ROM to cached data. But if I ask you (13^3)*tan37=? You should use some manual way and spend a lot of time to answer it. By this tech you can find answer of this question like 9*9.
And finally by this tech you are a computer. You can do anything that now you done it with your laptop, tablet, smart phone & etc. you can play song and video and listen to your favorite music without forwarding signal around you.
You get your facebook notification and E-mail only by thinking about your wall and your inbox of E-mail, you can set your body to get pain in your left eye when important notification like “friend request confirm” is available.
And now you are a powerful human-machine that can complete together.
-
The next logical iteration of the computer-in-your-pocket (which we still call a “phone”) is a computer implanted into you. This I think will be the basis of personal technology for Concordia: a chip planted into the skull that acts as the personal computer/communication device for each citizen.
It would be inherently wireless, able to access the internet and interface with other devices. It would have voice and sound modules in the jaw, and probably some kind of heads-up-display. Would that be able to be displayed directly on the eyeball with Nano-projectors, or would it need something a little more device-y over the eye?
There would need to be a way to interface with it as well, beyond what would likely have to be simple brain controls. Perhaps a touch-screen-like environment that gets projected onto a surface in front of you Or if you’re interfacing with an existing terminal, you can use its screen?
Of course, real tech-heads would go all out with this thing, and similar implanted techs, extending their cybernetic abilities. But there would probably be legal regulations against going too far, for safety reasons – I imagine as much as technology has advanced, it’s certainly not perfect yet. Major enhancements would also be expensive – since each requires surgery.
These may be a little more common in the technological underworld. I love the cyberpunk criminal tech world of Neuromancer, and imagine similar things, with black market hospitals for the surgery, experimental chips and programs, etc.
But at the same time, where an iphone might be stolen from someone or a computer accessed from a public terminal, these personal computers would have to be implanted surgically. And while they might be ubiquitous enough that basically everyone has one by twin-hood, there would be one exception: people who grew up outside of the normal societal structure.
Sure, someone on the streets in the under-city would have access to the black market clinics, but if they never had the money to get it, they would be completely cut off from “normal” cultural awareness, cut off from the communications grid, and in a way cut off from each other. What a divide that would create.
Would there still be computer terminals that people could access without a chip? What purpose would they serve? Who would be expected to use them? Or are they relics of the last generation, before the chips were so ubiquitous? Ah, but they would still have had something personal, the beginnings of a chip, perhaps linked to a handheld device closer to what we have today.
||
 

Don't Forget to See Back to The Future movies. The movies that may reveal some hidden project at that time & after years some of those technology get out to the markets
Back to the Future (1985)
Back to the Future Part II (1989)
Back to the Future Part III (1990)